US5538877A - Method for preparing fertile transgenic corn plants - Google Patents
Method for preparing fertile transgenic corn plants Download PDFInfo
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- US5538877A US5538877A US07/974,379 US97437992A US5538877A US 5538877 A US5538877 A US 5538877A US 97437992 A US97437992 A US 97437992A US 5538877 A US5538877 A US 5538877A
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- C12N15/8241—Phenotypically and genetically modified plants via recombinant DNA technology
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- C12N15/82—Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
- C12N15/8241—Phenotypically and genetically modified plants via recombinant DNA technology
- C12N15/8261—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
- C12N15/8271—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
- C12N15/8279—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
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Definitions
- This invention relates to fertile transgenic plants of the species Zea mays (oftentimes referred to herein as maize or corn).
- the invention further relates to producing transgenic plants via particle bombardment and subsequent selection techniques which have been found to produce fertile transgenic plants.
- Genetic engineering of plants which entails the isolation and manipulation of genetic material (usually in the form of DNA or RNA) and the subsequent introduction of that genetic material into a plant or plant cells, offers considerable promise to modern agriculture and plant breeding. Increased crop food values, higher yields, feed value, reduced production costs, pest resistance, stress tolerance, drought resistance, the production of pharmaceuticals, chemicals and biological molecules as well as other beneficial traits are all potentially achievable through genetic engineering techniques. Once a gene has been identified, cloned, and engineered, it is still necessary to introduce it into a plant of interest in such a manner that the resulting plant is both fertile and capable of passing the gene on to its progeny.
- a further stumbling block to the successful production of fertile transgenic maize plants has been in selecting those few transformants in such a manner that neither the regeneration capacity nor the fertility of the regenerated transformant are destroyed. Due to the generally low level of transformants produced by a transformation technique, the need for selection of the transformants is self-evident. However, selection generally entails the use of some toxic agent, e.g. herbicide or antibiotic, which can effect either the regenerability or the resultant plant fertility.
- some toxic agent e.g. herbicide or antibiotic
- the present invention relates to fertile transgenic Zea mays plants containing heterologous DNA, preferably chromosomally integrated heterologous DNA, which is heritable by progeny thereof.
- the invention further relates to all products derived from transgenic Zea mays plants, plant cells, plant parts, and seeds.
- the invention further relates to transgenic Zea mays seeds stably containing heterologous DNA and progeny which inherit the heterologous DNA.
- the invention further relates to a process for producing fertile transgenic Zea mays plants containing heterologous DNA.
- the process is based upon microprojectile bombardment, selection, and plant regeneration techniques.
- the invention further relates to a process for producing fertile transformed plants of graminaceous plants other than Zea mays which have not been reliably transformed by traditional methods such as electroporation, Agrobacterium, injection, and previous ballistic techniques.
- the invention further relates to regenerated fertile mature maize plants from transformed embryogenic tissue, transgenic seeds produced therefrom, and R1 and subsequent generations.
- this invention produces the fertile transgenic plants by means of a DNA-coated microprojectile bombardment of clumps of friable embryogenic callus, followed by a controlled regimen for selection of the transformed callus lines.
- FIG. 1A shows a map of plasmid vector pHYGI1 utilized in Example I.
- FIG. 1B shows the relevant part of pHYGI1 encompassing the HPT coding sequence and associated regulatory elements.
- the base pair numbers start from the 5' nucleotide in the recognition sequence for the indicated restriction enzymes, beginning with the EcoRI site at the 5' end of the CaMV 35S promoter.
- FIG. 2 shows a map of plasmid vector pBII221 utilized in Example I.
- FIG. 3 is a Southern blot of DNA isolated from the PH1 callus line and an untransformed control callus line.
- FIG. 4 is a Southern blot of leaf DNA isolated from Ro plants regenerated from PH1 and untransformed callus.
- FIG. 5 is a Southern blot of leaf DNA isolated from R1 progeny of PH1 Ro plants and untransformed Ro plants.
- FIG. 6 is a Southern blot of DNA isolated from the PH2 callus line and an untransformed control callus line.
- the present invention is directed to the production of fertile transgenic plants and seeds of the species Zea mays and to the plants, plant tissues, and seeds derived from such transgenic plants, as well as the subsequent progeny and products derived therefrom.
- the transgenic plants produced herein include all plants of this species, including field corn, popcorn, sweet corn, flint corn and dent corn.
- Transgenic is used herein to include any cell, cell line, callus, tissue, plant part or plant which contains heterologous DNA that was introduced into plant material by a process of genetic engineering, or which was initially introduced into a plant species by such a process and was subsequently transferred to later generations by sexual or asexual cell crosses or cell divisions.
- the transgenic plants of this invention may be produced by (i) establishing friable embryogenic callus from the plant to be transformed, (ii) transforming said cell line by a microprojectile bombardment technique, (iii) controllably identifying or selecting transformed cells, and (iv) regenerating fertile transgenic plants from the transformed cells.
- Some of the plants of this invention may be produced from the transgenic seed produced from the fertile transgenic plants using conventional crossbreeding techniques to develop commercial hybrid seed containing heterologous DNA.
- the cells which have been found useful to produce the fertile transgenic maize plants herein are those callus cells which are regenerable, both before and after undergoing a selection regimen as detailed further below.
- these cells will be derived from meristematic tissue which contain cells which have not yet terminally differentiated.
- tissue in graminaceous cereals in general and in maize in particular, comprise tissues found in juvenile leaf basal regions, immature tassels, immature embryos, and coleoptilar nodes.
- immature embryos are used.
- the specific callus used must be able to regenerate into a fertile plant.
- the specific regeneration capacity of particular callus is important to the success of the bombardment/selection process used herein because during and following selection, regeneration capacity may decrease significantly. It is therefore important to start with cultures that have as high a degree of regeneration capacity as possible. Callus which is more than about 3 months and up to about 36 months of age has been found to have a sufficiently high level of regenerability and thus is currently preferred.
- the regenerative capacity of a particular culture may be readily determined by transferring samples thereof to regeneration medium and monitoring the formation of shoots, roots, and plantlets. The relative number of plantlets arising per Petri dish or per gram fresh weight of tissue may be used as a rough quantitative estimate of regeneration capacity. Generally, a culture which will produce at least one plant per gram of callus tissue will be preferred.
- maize callus cultures can be initiated from a number of different plant tissues
- the cultures useful herein are preferably derived from immature maize embryos which are removed from the kernels of an ear when the embryos are about 1-3 mm in length. This length generally occurs about 9-14 days after pollination.
- the embryos are placed on conventional solid media with the embryo axis down (scutellum up).
- Callus tissue appears from the scutellum after several days to a few weeks.
- the cell proliferations from the scutellum may be evaluated for friable consistency and the presence of well-defined embryos.
- friable consistency is meant that the tissue is easily dispersed without causing injury to the cells. Tissue with this morphology is then transferred to fresh media and subcultured on a routine basis about every two weeks.
- the callus initiation media is solid because callus cannot be readily initiated in liquid medium.
- the initiation/maintainence media is typically based on the N6 salts of Chu et al. (1975) as described in Armstrong et al. (1985) or the MS salts of Murashige et al. (1962).
- the basal medium is supplemented with sucrose and 2,4-dichlorophenoxyacetic acid (2,4-D).
- Supplements such as L-proline and casein hydrolysate have been found to improve the frequency of initiation of callus cultures, morphology, and growth.
- the cultures are generally maintained in the dark, though low light levels may also be used.
- the level of synthetic hormone 2,4-D, necessary for maintainence and propagation, should be generally about 0.3 to 3.0 mg/l.
- heterologous DNA used for transformation herein may be circular or linear, double-stranded or single-stranded.
- the DNA is in the form of a plasmid and contains coding regions of beneficial heterologous DNA with flanking regulatory sequences which serve to promote the expression of the heterologous DNA present in the resultant corn plant.
- "Heterologous DNA” is used herein to include all synthetically engineered or biologically derived DNA which is introduced into a plant by man by genetic engineering, including but not limited to, non-plant genes, modified genes, synthetic genes, portions of genes, as well as DNA and genes from maize and other plant species.
- compositions of and methods for constructing heterologous DNA for successful transformations of plants is well known to those skilled in the art, and the same compositions and methods of construction may be utilized to produce the heterologous DNA useful herein.
- the specific composition of the DNA is not central to the present invention and the invention is not dependent upon the composition of the specific transforming DNA used.
- Sambrook et al. (1989) provides suitable methods of construction.
- heterologous DNA will be relatively small, i.e. less than about 30 kb to minimize any susceptibility to physical, chemical, or enzymatic degradation which is known to increase as the size of the DNA increases.
- Suitable heterologous DNA for use herein includes all DNA which will provide for, or enhance, a beneficial feature of the resultant transgenic corn plant.
- the DNA may encode proteins or antisense RNA transcripts in order to promote increased food values, higher yields, pest resistance, disease resistance, and the like.
- a bacterial dap A gene for increased lysine Bt-endotoxin gene or protease inhibitor for insect resistance
- bacterial ESPS synthase for resistance to glyphosate herbicide
- chitinase or glucan endo-1,3-B-glucosidase for fungicidal properties.
- the DNA may be introduced to act as a genetic tool to generate mutants and/or assist in the identification, genetic tagging, or isolation of segments of corn DNA. Additional examples may be found in Weising, supra.
- the heterologous DNA to be introduced into the plant further will generally contain either a selectable marker or a reporter gene or both to facilitate identification and selection of transformed cells.
- the selectable marker may be carried on a separate piece of DNA and used in a cotransformation procedure.
- Both selectable markers and reporter genes may be flanked with appropriate regulatory sequences to enable expression in plants.
- Useful selectable markers are well known in the art and include, for example, antibiotic and herbicide resistance genes. Specific examples of such genes are disclosed in Weising et al, supra.
- a preferred selectable marker gene is the hygromycin B phosphotransferase (HPT) coding sequence, which may be derived from E. coli.
- selectable markers known in the art include aminoglycoside phosphotransferase gene of transposon Tn5 (AphII) which encodes resistance to the antibiotics kanamycin, neomycin, and G418, as well as those genes which code for resistance or tolerance to glyphosate, methotrexate, imidazolinones, sulfonylureas, bromoxynil, dalapon, and the like.
- Those selectable marker genes which confer herbicide resistance or tolerance are also of commercial utility in the resulting transformed plants.
- reporter genes which encode for easily assayable marker proteins are well known in the art.
- a reporter gene is a gene which is not present or expressed by the recipient organism or tissue and which encodes a protein whose expression is manifested by some easily detectable property, e.g. phenotypic change or enzymatic activity. Examples of such genes are provided in Weising et al, Supra.
- Preferred genes include the chloramphenicol acetyl transferase gene from Tn9 of E. coli, the beta-glucuronidase gene of the uidA locus of E. coli, and the luciferase genes from firefly Photinus pyralis.
- the regulatory sequences useful herein include any constitutive, inducible, tissue or organ specific, or developmental stage specific promoter which can be expressed in the particular plant cell. Suitable such promoters are disclosed in Weising et al, supra. The following is a partial representative list of promoters suitable for use herein: regulatory sequences from the T-DNA of Agrobacterium tumefaciens, including mannopine synthase, nopaline synthase, and octopine synthase; alcohol dehydrogenase promoter from corn; light inducible promoters such as, ribulose-biphosphate-carboxylase small subunit gene from a variety of species; and the major chlorophyll a/b binding protein gene promoter; 35S and 19S promoters of cauliflower mosaic virus; developmentally regulated promoters such as the waxy, zein, or bronze promoters from maize; as well as synthetic or other natural promoters which are either inducible or constitutive, including those promoters
- introns such as introns, enhancers, polyadenylation sequences and the like
- elements may or may not be necessary for the function of the DNA, although they can provide a better expression or functioning of the DNA by affecting transcription, stability of the mRNA, or the like.
- Such elements may be included in the DNA as desired to obtain the optimal performance of the transforming DNA in the plant.
- the maize Adh1S first intron may be placed between the promoter and the coding sequence of a particular heterologous DNA. This intron, when included in a DNA construction, is known to generally increase expression in maize cells of a protein. (Callis et al.
- the DNA may include a reporter gene.
- An assay for expression of the reporter gene may then be performed at a suitable time after the DNA has been introduced into the recipient cells.
- a preferred such assay entails the use of the E. coli beta-glucuronidase (GUS) gene (Jefferson et al. 1987).
- GUS E. coli beta-glucuronidase
- a suitable time for conducting the assay is about 2-3 days after bombardment.
- the use of transient assays is particularly important when using DNA components which have not previously been demonstrated or confirmed as compatible with the desired recipient cells.
- the DNA can be introduced into the regenerable maize callus cultures via a particle bombardment process.
- a general description of a suitable particle bombardment instrument is provided in Sanford et al. (1987), the disclosure of which is incorporated herein by reference. While protocols for the use of the instrument in the bombardment of maize non-regenerable suspension culture cells are described in Klein et al. (1988a, 1988b, and 1989), no protocols have been published for the bombardment of callus cultures or regenerable maize cells.
- a microprojectile bombardment process also referred to as a biolistic process
- the transport of the DNA into the callus is mediated by very small particles of a biologically inert material.
- the inert particles are coated with DNA and accelerated to a suitable velocity, one or more of the particles is able to enter into one or more of the cells where the DNA is released from the particle and expressed within the cell. While some of the cells are fatally damaged by the bombardment process, some of the recipient cells do survive, stably retain the introduced DNA, and express it.
- microprojectiles are generally of a high density material such as tungsten or gold. They are coated with the DNA of interest.
- the microprojectiles are then placed onto the surface of a macroprojectile which serves to transfer the motive force from a suitable energy source to the microprojectiles. After the macroprojectile and the microprojectiles are accelerated to the proper velocity, they contact a blocking device which prevents the macroprojectile from continuing its forward path but allows the DNA-coated microprojectiles to continue on and impact the recipient callus cells.
- Suitable such instruments may use a variety of motive forces such as gunpowder or shock waves from an electric arc discharge (J. C. Sanford et al., J. Particle Science and Technology, 5, 27 (1987) et al. 1988).
- An instrument in which gunpowder is the motive force is currently preferred and such is described and further explained in Sanford et al. (1987), the disclosure of which is incorporated herein by reference.
- a protocol for the use of the gunpowder instrument is provided in Klein et al. (1988a, b) and involves two major steps. First, tungsten microprojectiles are mixed with the DNA, calcium chloride, and spermidine free base in a specified order in an aqueous solution. The concentrations of the various components may be varied as taught. The currently preferred procedure entails exactly the procedure of Klein et al. (1988b) except for doubling the stated optimum DNA concentration. Secondly, in the actual bombardment, the distance of the recipient cells from the end of the barrel as well as the vacuum in the sample chamber. The currently preferred procedure for bombarding the callus entails exactly the procedure of Klein et al. (1988b) with the recipient tissue positioned 5 cm below the stopping plate tray.
- callus cultures useful herein for generation of transgenic plants should generally be about 3 months to 3 years old, preferably about 3 to 18 months old.
- Callus used for bombardment should generally be about midway between transfer periods and thus past any "lag" phase that might be associated with a transfer to a new media, but also before reaching any "stationary" phase associated with a long time on the same plate.
- the specific tissue subjected to the bombardment process is preferably taken about 7-10 days after subculture, though this is not believed critical.
- the tissue should generally be used in the form of pieces of about 30 to 80, preferably about 40 to 60, mg.
- the clumps are placed on a petri dish or other surface and arranged in essentially any manner, recognizing that (i) the space in the center of the dish will receive the heaviest concentration of metal-DNA particles and the tissue located there is likely to suffer damage during bombardment and (ii) the number of particles reaching a cell will decrease (probably exponentially) with increasing distance of the cell from the center of the blast so that cells far from the center of the dish are not likely to be bombarded and transformed.
- a mesh screen preferably of metal, may be laid on the dish to prevent splashing or ejection of the tissue. The tissue may be bombarded one or more times with the DNA-coated metal particles.
- the transformed calli or plants regenerated therefrom can be screened for the presence of the heterologous DNA by various standard methods which could include assays for the expression of reporter genes or assessment of phenotypic effects of the heterologous DNA, if any.
- those cells of the callus which have been transformed can be identified by the use of a selective agent to detect expression of the selectable marker gene.
- Selection of the putative transformants is a critical part of the successful transformation process since selection conditions must be chosen so as to allow growth and accumulation of the transformed cells while simultaneously inhibiting the growth of the non-transformed cells.
- the situation is complicated by the fact that the vitality of individual cells in a population is often highly dependent on the vitality of neighboring cells.
- the selection conditions must not be so severe that the plant regeneration capacity of the callus cells and the fertility of the resulting plant are precluded.
- the effects of the selection agent on cell viability and morphology should be evaluated. This may be accomplished by experimentally producing a growth inhibition curve for the given selective agent and tissue being transformed beforehand. This will establish the concentration range which will inhibit growth.
- the callus clumps may be either allowed to recover from the bombardment on non-selective media or, preferably, directly transferred to media containing that agent.
- Selection procedures involve exposure to a toxic agent and may employ sequential changes in the concentration of the agent and multiple rounds of selection.
- concentrations and cycle lengths are likely to need to be varied for each particular agent.
- a currently preferred selection procedure entails using an initial selection round at a relatively low toxic agent concentration and then later round(s) at higher concentration(s). This allows the selective agent to exert its toxic effect slowly over a longer period of time.
- concentration of the agent is initially such that about a 5-40% level of growth inhibition will occur, as determined from a growth inhibition curve.
- the effect may be to allow the transformed cells to preferentially grow and divide while inhibiting untransformed cells, but not to the extent that growth of the transformed cells is prevented.
- the tissue may be shifted to media containing a higher concentration of the toxic agent to kill essentially all untransformed cells.
- the shift to the higher concentration also reduces the possibility of non-transformed cells habituating to the agent.
- the higher level is preferably in the range of about 30 to 100% growth inhibition.
- the length of the first selection cycle may be from about 1 to 4 weeks, preferably about 2 weeks. Later selection cycles may be from about 1 to about 12 weeks, preferably about 2 to about 10 weeks.
- Putative maize transformants can generally be identified as proliferating sectors of tissue among a background of non-proliferating cells.
- the callus may also be cultured on non-selective media at various times during the overall selection procedure.
- phenotypic and/or genotypic analysis can be confirmed by phenotypic and/or genotypic analysis.
- a selection agent is used, an example of phenotypic analysis is to measure the increase in fresh weight of the putative transformant as compared to a control on various levels of the selective agent.
- Other analyses that may be employed will depend on the function of the heterologous DNA. For example, if an enzyme or protein is encoded by the DNA, enzymatic or immunological assays specific for the particular enzyme or protein may be used. Other gene products may be assayed by using a suitable bioassay or chemical assay. Other such techniques are well known in the art and are not repeated here. The presence of the gene can also be confirmed by conventional procedures, i.e. Southern blot or polymerase chain reaction (PCR) or the like.
- PCR polymerase chain reaction
- Cell lines which have been shown to be transformed must then be regenerated into plants and the fertility of the resultant plants determined.
- Transformed lines which test positive by genotypic and/or phenotypic analysis are then placed on a media which promotes tissue differentiation and plant regeneration.
- Regeneration may be carried out in accordance with standard procedures well known in the art. The procedures commonly entail reducing the level of auxin which discontinues proliferation of a callus and promotes somatic embryo development or other tissue differentiation.
- One example of such a regeneration procedure is described in Green et al. (1981). The plants are grown to maturity in a growth room or greenhouse and appropriate sexual crosses and selfs are made as described by Neuffer (1981).
- Regeneration while important to the present invention, may be performed in any conventional manner. If a selectable marker has been transformed into the cells, the selection agent may be incorporated into the regeneration media to further confirm that the regenerated plantlets are transformed. Since regeneration techniques are well known and not critical to the present invention, any technique which accomplishes the regeneration and produces fertile plants may be used.
- the plants regenerated from the transformed callus are referred to as the R0 generation or R0 plants.
- the seeds produced by various sexual crosses of the R0 generation plants are referred to as R1 progeny or the R1 generation.
- R1 progeny When R1 seeds are germinated, the resulting plants are also referred to as the R1 generation.
- the R1 generation should be analyzed to confirm the presence of the transforming DNA.
- the analysis may be performed in any of the manners such as were disclosed above for analyzing the bombarded callus for evidence of transformation, taking into account the fact that plants and plant parts are being used in place of the callus.
- the commercial value of the transformed corn produced herein will be greatest if the heterologous DNA can be incorporated into many different hybrid combinations.
- a farmer typically grows several varieties of hybrids based on differences in maturity, standability, and other agronomic traits. Also, the farmer must select a hybrid based upon his physical location since hybrids adapted to one part of the corn belt are generally not adapted to another part because of differences in such traits as maturity, disease, and insect resistance. As such, it is necessary to incorporate the heterologous DNA into a large number of parental lines so that many hybrid combinations can be produced containing the desirable heterologous DNA.
- the progeny from this cross will segregate such that some of the plants will carry the heterologous DNA whereas some will not.
- the plants that do carry the DNA are then crossed again to the normal plant resulting in progeny which segregate once more. This crossing is repeated until the original normal parent has been converted to a genetically engineered line containing the heterologous DNA and also possessing all other important attributes originally found in the parent.
- a separate backcrossing program will be used for every elite line that is to be converted to a genetically engineered elite line.
- transgenic plants produced herein are expected to be useful for a variety of commercial and research purposes.
- Transgenic plants can be created for use in traditional agriculture to possess traits beneficial to the grower (e.g. agronomic traits such as pest resistance or increased yield), beneficial to the consumer of the grain harvested from the plant (e.g. improved nutritive content in human food or animal feed), or beneficial to the food processor (e.g. improved processing traits).
- the plants are generally grown for the use of their grain in human or animal foods.
- other parts of the plants, including stalks, husks, vegetative parts, and the like may also have utility, including use as part of animal silage or for ornamental purposes (e.g. Indian corn).
- chemical constituents (e.g. oils or starches) of corn and other crops are extracted for food or industrial use and transgenic plants may be created which have enhanced or modified levels of such components.
- the plants may also be used for seed production for a variety of purposes.
- Transgenic plants may also find use in the commercial manufacture of proteins or other molecules encoded by the heterologous DNA contained therein, where the molecule of interest is extracted or purified from plant parts, seeds, and the like.
- Cells or tissue from the plants may also be cultured, grown in vitro, or fermented to manufacture such molecules, or for other purposes (e.g. for research).
- the transgenic plants may also be used in commercial breeding programs, or may be crossed or bred to plants of related crop species. Improvements encoded by the heterologous DNA may be transferred, e.g. from corn cells to cells of other species e.g. by protoplast fusion.
- the transgenic plants may have many uses in research or breeding, including creation of new mutant plants through insertional mutagenesis, in order to identify beneficial mutants that might later be created by traditional mutation and selection.
- the methods of the invention may also be used to create plants having unique "signature sequences" or other marker sequences which can be used to identify proprietary lines or varieties.
- Fertile transgenic Zea mays plants which contain heterologous DNA which is heritable were prepared as follows:
- Friable, embryogenic maize callus cultures were initiated from hybrid immature embryos produced by pollination of inbred line A188 plants (University of Minnesota, Crop Improvement Association) with pollen of inbred line B73 plants (Iowa State University). Ears were harvested when the embryos had reached a length of 1.5 to 2.0 mm. The whole ear was surface sterilized in 50% v/v commercial bleach (2.63% w/v sodium hypochlorite) for 20 min. at room temperature. The ears were then washed with sterile distilled, deionized water. Immature embryos were aseptically isolated and placed on nutrient agar initiation/maintenance media with the root/shoot axis exposed to the medium.
- Initiation/maintenance media (hereinafter referred to as F medium) consisted of N6 basal media (Chu 1975) with 2% (w/v) sucrose, 1.5 mg per liter 2,4-dichlorophenoxyacetic acid (2,4-D), 6 mM proline, and 0.25% Gelrite (Kelco, Inc. San Diego). The pH was adjusted to 5.8 prior to autoclaving. Unless otherwise stated, all tissue culture manipulations were carried out under sterile conditions.
- the immature embryos were incubated at 26° C. in the dark. Cell proliferations from the scutellum of the immature embryos were evaluated for friable consistency and the presence of well defined somatic embryos. Tissue with this morphology was transferred to fresh media 10 to 14 days after the initial plating of the immature embryos. The tissue was then subcultured on a routine basis every 14 to 21 days. Sixty to eighty milligram quantities of tissue were removed from pieces of tissue that had reached a size of approximately one gram and transferred to fresh media. Subculturing always involved careful visual monitoring to be sure that only tissue of the correct morphology was maintained. The presence of somatic embryos ensured that the cultures would give rise to plants under the proper conditions.
- the cell culture named AB12 used in this example was such a culture and had been initiated about 1 year before bombardment.
- pCHN1-1 contains the hygromycin B phosphotransferase (HPT) coding sequence from E. coli (Gritz et al. 1983) flanked at the 3' end by the nopaline synthase (nos) polyadenylation sequence of Agrobacterium tumefaciens (M. Bevan et al., Nuc. Acids Res., 11, 369, 1983).
- HPT hygromycin B phosphotransferase
- pHYGI1 cauliflower mosaic virus 35S promoter (Guilley et al. 1982), located upstream from the hygromycin coding sequence.
- the plasmid pHYGI1 was constructed by inserting the 553 bp Bcl-BamHI fragment containing the maize Adh1S first intron (Callis et al. 1987) between the CaMV 35S promoter and the hygromycin coding sequence of pCHN1-1.
- a map of pHYGI1 is provided as FIG. 1.
- pBII221 contains the E. coli B-glucuronidase coding sequence flanked at the 5' end by the CaMV 35S promoter and at the 3' end by the nos polyadenylation sequence.
- the plasmid was constructed by inserting the maize AdhIS first intron between the 35S promoter and the coding sequence of pBI221 (Jefferson et al. 1987).
- a map of pBII221 is provided as FIG. 2.
- pLUC-1 contains the firefly luciferase coding sequence (DeWet et al. 1987) flanked at the 5' end by the CaMV 35S promoter and at the 3' end by the nos polyadenylation sequence. This plasmid was used solely as a negative control.
- Plasmids were introduced into the embryogenic callus culture AB12 by microprojectile bombardment.
- the embryogenic maize callus line AB12 was subcultured 7 to 12 d prior to microprojectile bombardment.
- AB12 was prepared for bombardment as follows. Five clumps of callus, each approximately 50 mg in wet weight were arranged in a cross pattern in the center of a sterile 60 ⁇ 15 mm petri plate (Falcon 1007). Plates were stored in a closed container with moist paper towels throughout the bombardment process. Twenty six plates were prepared.
- Plasmids were coated onto M-10 tungsten particles (Biolistics) exactly as described by Klein, et al (1988b) except that, (i) twice the recommended quantity of DNA was used, (ii) the DNA precipitation onto the particles was performed at 0° C., and (iii) the tubes containing the DNA-coated tungsten particles were stored on ice throughout the bombardment process.
- All of the tubes contained 25 ul 50 mg/ml M-10 tungsten in water, 25 ul 2.5M CaCl 2 , and 10 ul 100 mM spermidine free base along with a total of 5 ul 1 mg/ml total plasmid content. When two plasmids were used simultaneously, each was present in an amount of 2.5 ul.
- One tube contained only plasmid pBII221; two tubes contained both plasmids pHYGI1 and pBII221; two tubes contained both plasmids pCHN1-1 and pBII221; and one tube contained only plasmid pLUC-1.
- Macroprojectiles and stopping plates were obtained from Biolistics, Inc. (Ithaca, N.Y.). They were sterilized as described by the supplier. The microprojectile bombardment instrument was obtained from Biolistics, Inc.
- the sample plate tray was positioned at the position 5 cm below the bottom of the stopping plate tray of the microprojectile instrument, with the stopping plate in the slot below the barrel. Plates of callus tissue prepared as described above were centered on the sample plate tray and the petri dish lid removed. A 7 ⁇ 7 cm square rigid wire mesh with 3 ⁇ 3 mm mesh and made of galvanized steel was placed over the open dish in order to retain the tissue during the bombardment. Tungsten/DNA preparations were sonicated as described by Biolistics, Inc. and 2.5 ul was pipetted onto the top of the macroprojectiles. The instrument was operated as described by the manufacturer. The following bombardments were performed:
- the two plates of callus bombarded with pBII221 were transferred plate for plate to F medium (with no hygromycin) and the callus cultured at 26° C. in the dark. After 2 d this callus was then transferred plate for plate into 35 ⁇ 10 mm petri plates (Falcon 1008) containing 2 ml of GUS assay buffer which consists of 1 mg/ml 5-bromo-4-chloro-3-indolyl-beta-D-glucuronide (Research Organics), 100 mM sodium phosphate pH 7.0, 5 mM each of potassium ferricyanide and potassium ferrocyanide, 10 mM EDTA, and 0.06% Triton X-100. These were incubated at 37° C.
- Hygromycin B (Calbiochem) was incorporated into the medium by addition of the appropriate volume of filter sterilized 100 mg/ml Hygromycin B in water when the media had cooled to 45° C. prior to pouring plates.
- callus from all of the plates treated with pHYGI1/pBII221, pCHN1-1/pBII-221 and three of the plates treated with pLUC-1 were transferred plate for plate onto F medium containing 15 mg/l hygromycin B, (five pieces of callus per plate). These are referred to as round 1 selection plates.
- Callus from the fourth plate treated with pLUC-1 was transferred to F medium without hygromycin. This tissue was subcultured every 2-3 weeks onto nonselective medium and is referred to as unselected control callus.
- round 2 selection plates After 21 days on the round 2 selection plates, all viable portions of the material were transferred to round 3 selection plates containing 60 mg/l hygromycin. The round 2 selection plates, containing only tissue that was apparently dead, were reserved. Both round 2 and 3 selection plates were observed periodically for viable proliferating sectors.
- the line 6L was capable of sustained growth over 9 subcultures on 0, 10, 30, 100, and 250 mg/l hygromycin.
- the name of the line 6L was changed at this time from 6L to PH1 (Positive Hygromycin transformant 1).
- a Southern blot of PH1 callus was prepared as follows: DNA was isolated from PH1 and unselected control calli by freezing 2 g of callus in liquid nitrogen and grinding it to a fine powder which was transferred to a 30 ml Oak Ridge tube containing 6 ml extraction buffer (7M urea, 250 mM NaCl, 50 mM Tris-HCl pH 8.0, 20 mM EDTA pH 8.0, 1% sarcosine). To this was added 7 ml of phenol:chloroform 1:1, the tubes shaken and incubated at 37° C. 15 min. Samples were centrifuged at 8K for 10 min. at 4° C.
- the supernatant was pipetted through miracloth (Calbiochem 475855) into a disposable 15 ml tube (American Scientific Products, C3920-15A) containing 1 ml 4.4M ammonium acetate, pH 5.2. Isopropanol, 6 ml, was added, the tubes shaken, and the samples incubated at -20° C. for 15 min.
- the DNA was pelleted in a Beckman TJ-6 centrifuge at the maximum speed for 5 min. at 4° C. The supernatant was discarded and the pellet was dissolved in 500 ul TE-10 (10 mM Tris-HCl pH 8.0, 10 mM EDTA pH 8.0) 15 min. at room temperature.
- the samples were transferred to a 1.5 ml Eppendorf tube and 100 ul 4.4M ammonium acetate, pH 5.2 and 700 ul isopropanol were added. This was incubated at -20° C. for 15 min. and the DNA pelleted 5 min. in an Eppendorf microcentrifuge (12,000 rpm). The pellet was washed with 70% ethanol, dried, and resuspended in TE-1 (10 mM Tris-HCl pH 8.0, 1 mM EDTA).
- the isolated DNA (10 ug) was digested with BamHI (NEB) and electrophoresed in a 0.8% w/v agarose gel at 15 V for 16 hrs in TAE buffer (40 mM Tris-acetate, 1 mM EDTA).
- the DNA within the gel was then depurinated by soaking the gel twice in 0.25M HCl for 15 min., denatured and cleaved by soaking the gel twice in 0.5M NaOH/1.0M NaCl 15 min., and neutralized by soaking the gel twice in 0.5M Tris pH 7.4/3M NaCl 30 min.
- DNA was then blotted onto a Nytran membrane (Shleicher & Shuell) by capillary transfer overnight in 6 ⁇ SSC (20 ⁇ SSC, 3M NaCl, 0.3M sodium citrate pH 7.0). The membrane was baked at 80° C. for 2 hrs under vacuum. Prehybridization treatment of the membrane was done in 6 ⁇ SSC, 10 ⁇ Denhardt's solution, 1% SDS, 50 ug/ml denatured salmon sperm DNA using 0.25 ml prehybridization solution per cm 2 of membrane. Prehybridization was carried out at 42° C. overnight.
- a 32P labelled probe was prepared by random primer labelling with an Oligo Labelling Kit (Pharmacia) as per the suppliers instructions with 32P-dCTP (ICN Radiochemicals).
- the template DNA used was the 1055 bp BamHI fragment of pHYGI1, which is the HPT coding sequence. The fragment was gel purified and cut again with PstI (NEB) before labelling.
- the hybridization was performed in 50% formamide, 6 ⁇ SSC, 1% SDS, 50 ug/ml denatured salmon sperm DNA (Sigma), 0.05% sodium pyrophosphate and all of the isopropanol precipitated heat denatured probe (107 CPM/50ug template). The hybridization was carried out at 42° C. overnight.
- the membrane was washed twice in 50 ml 6 ⁇ SSC, 0.1% SDS 5 min. at room temperature with shaking, then twice in 500 ml 6 ⁇ SSC, 0.1% SDS 15 min. at room temperature, then twice in 500 ml 1 ⁇ SSC, 1% SDS 30 min. at 42° C., and finally in 500 ml 0.1 ⁇ SSC 1% SDS 60 min. at 65° C.
- Membranes were exposed to Kodak X-OMAT AR film in an X-OMATIC cassette with intensifying screens. As shown in FIG. 3, a band was observed for PH1 callus at the expected position of 1.05 Kb, indicating that the HPT coding sequence was present. No band was observed for control callus.
- PH1 callus was transferred directly from all of the concentrations of hygromycin used in the inhibition study to RM5 medium which consists of MS basal salts (Murashige et al. 1962) supplemented with thiamine HCl 0.5 mg/l, 2,4-D 0.75 mg/l, sucrose 50 g/l, asparagine 150 mg/l, and Gelrite 2.5 g/l (Kelco Inc. San Diego).
- R5 medium which is the same as RM5 medium, except that 2,4-D is omitted. These were cultured in the dark for 7 d at 26° C. and transferred to a light regime of 14 hours light and 10 hours dark for 14 d at 26° C. At this point, plantlets that had formed were transferred to one quart canning jars (Ball) containing 100 ml of R5 medium. Plants were transferred from jars to vermiculite after 14 and 21 d. Plants were grown in vermiculite for 7 or 8 days before transplanting into soil and grown to maturity. A total of 65 plants were produced from PH1 and a total of 30 plants were produced from control callus.
- Controlled pollinations of mature PH1 plants were conducted by standard techniques with inbred lines A188, B73 and Oh43. Seed was harvested 45 days post-pollination and allowed to dry further 1-2 weeks. Seed set varied from 0 to 40 seeds per ear when PH1 was the female parent and from 0 to 32 seeds per ear when PH1 was the male parent.
- the presence of the hygromycin resistance trait was evaluated by a root elongation bioassay, an etiolated leaf bioassay, and by Southern blotting. Two ears each from regenerated PH1 and control plants were selected for analysis. The pollen donor was inbred line A188 for all ears.
- Seed was sterilized in a 1:1 dilution of commercial bleach in water plus alconox 0.1% for 20 min. in 125 ml Erlenmeyer flasks and rinsed 3 times in sterile water and imbibed overnight in sterile water containing 50 mg/ml captan by shaking at 150 rpm.
- Roots were evaluated for the presence or absence of abundant root hairs and root branches. Roots were classified as transgenic (hygromycin resistant) if they had root hairs and root branches, and untransformed (hygromycin sensitive) if they had limited numbers of branches. The results are shown in Table 1.
- the seedlings of one PH1 ear and one control ear were transferred to moist vermiculite and grown in the dark for 5 d.
- 1 mm sections were cut from the tip of the coleoptile, surface sterilized 10 seconds, and plated on MS basal salts, 20 g/l sucrose, 2.5 g/l Gelrite with either 0 (control) or 100 mg/l hygromycin and incubated in the dark at 26° C. for 18 hr.
- Each plate contained duplicate sections of each shoot. They were then incubated in a light regimen of 14 hours light 10 hours dark at 26° C.
- the embryogenic maize callus line, AB12 was used as in Example I. The line had been initiated about 18 months before the actual bombardment occurred.
- the plasmids pBII221 and pHYGI1 described in Example I were used.
- Callus was bombarded exactly as in Example I except that the DNA used in the tungsten/DNA preparations differed. All of the tubes contained 25 ul 50 mg/ml M-10 tungsten in water, 25 ul 2.5M CaCl 2 , and 10 ul 100 mM spermidine free base along with a total of 5 ul 1 mg/ml total plasmid content.
- One tube contained only plasmid pBII221; two tubes contained only plasmid pHYGI1; and one tube contained no plasmid but 5 ul TE-1 (10 mM Tris-HCl pH 8.0, 1 mM EDTA pH 8.0).
- the callus from the pBII221 treatments was transferred plate for plate to F medium as five 50 mg pieces. After 2 d the callus was placed into GUS assay buffer as per Example I. Numbers of transiently expressing cells were counted and found to be 686 and 845 GUS positive cells, suggesting that the particle delivery process had occurred in the other bombarded plates.
- the callus from the pHYGI1 treatments was placed onto round 1 selection plates, F medium containing 15 mg/l hygromycin, as ten 25 mg pieces per plate (different from Example I). The same was done for two of the plates bombarded with the TE preparation (selected control callus). One plate of callus bombarded with the TE preparation was placed onto F medium with no hygromycin; this callus was maintained throughout the ongoing experiment as a source of control tissue and was referred to as unselected control callus.
- the callus on round 2 selection plates had increased substantially in weight after 23 d, but at this time appeared close to dead. All of the callus was transferred from round 2 selection plates to round 3 selection plates containing 60 mg/l hygromycin. This transfer of all material from round 2 to round 3 selection differs from Example I in which only viable sectors were transferred and the round 2 plates reserved.
- line 24C After 19 d on 60 mg/l hygromycin the growth of line 24C appeared to be entirely uninhibited, with the control showing approximately 80% of the weight gain of 24C. The line 56A was completely dead, and the line 55A was very close. The lines 24C and 55A were transferred again to F 60 mg/l hygromycin as was the control tissue.
- the callus was from a plate bombarded with pHYGI1 and was designated 13E.
- the callus was transferred to F medium and cultured for 19 d. Portions of the callus were then transferred to (i) F media containing 15 mg/l hygromycin and (ii) F media containing 60 mg/l hygromycin. Control callus was plated on F media with 15 mg/l hygromycin. After 14 d of culture, the callus line 13E appeared uninhibited on both levels of hygromycin. The control callus appeared to have about 80% of the weight gain of 13E. The callus lines were transferred to fresh media at the same respective levels of hygromycin.
- a Southern blot was prepared from DNA from the line 24C. As shown in FIG. 6, a band was observed for the line 24C at the expected size of 1.05 Kb showing that the line 24C contained the HPT coding sequence. No band was observed for DNA from control tissue. The name of the callus line 24C was changed to PH2.
- the line 24C along with unselected control callus were placed onto RM5 medium to regenerate plants as in Example I. After 16 d the callus was transferred to R5 medium as in Example I.
- Example II The procedure of Example II was repeated exactly except that different plasmids were used.
- pMS533 is a plasmid that contains the insecticidal Bacillus thuringiensis endotoxin (BT) gene fused in frame with the neomycin phosphotransferase (NPTII) gene.
- 5' of the fusion gene are located segments of DNA from the CaMV 35S and nopaline synthase promoters.
- 3' from the fusion gene are segments of DNA derived from the tomato protease inhibitor I gene and the poly A region of the nopaline synthase gene.
- the callus from the pHYGI1/pMS533 treatments was placed onto round 1 selection plates, F medium containing 15 mg/l hygromycin, as ten 25 mg pieces per plate. The same was done for one of the plates bombarded with the TE preparation (selected control callus).
- One plate of callus bombarded with the TE preparation was placed onto F medium with no hygromycin; this callus was maintained throughout the ongoing experiment as a source of control tissue and was referred to as unselected control callus.
- the callus line was from pHYGI1/pMS533 treated material and was designated 86R.
- the callus line 86R was transferred to F medium.
- the callus line 86R had grown substantially. Portions of the callus were then transferred to (i) F media containing 15 mg/l hygromycin and (ii) F media containing 60 mg/l hygromycin. Control callus was plated on F media with 15 mg/l hygromycin.
- the callus line 86R appeared to grow rapidly and was uninhibited on both levels of hygromycin.
- the control callus appeared to have only about 50% of the weight gain of 86R.
- the callus lines were transferred to fresh media at the same respective levels of hygromycin to further test the resistance of the callus line 86R to hygromycin.
Abstract
Description
______________________________________ 2 × pBII221 prep To determine transient expres- sion frequency 10 × pHYGI1/pBII221 As a potential positive treat- ment for transformation 10 × pCHN1-1/pBII221 As a potential positive treat- ment for transformation 4 × pLUC-1 Negative control treatment ______________________________________
______________________________________ TREATMENT REPLICATE OBSERVATIONS ______________________________________ pLUC-1 no blue cells PHYGI1/PBII221 plate 1 11single cells 1 four cell cluster plate 2 5 single cells pCHN1-1/pBII221 plate 1 1 single cell 2 two cell clusters plate 2 5single cells 1 two cell cluster 2 clusters of 8-10 cells ______________________________________
TABLE 1 __________________________________________________________________________ ANALYSIS OF PH1 R1 PLANTS PH1 ROOT LEAF CONT. ROOT LEAF PLANT ASSAY ASSAY BLOT PLANT ASSAY ASSAY BLOT __________________________________________________________________________ 3.1 + ND + 4.1 - ND ND 3.2 - ND - 4.2 - ND ND 3.3 - ND - 4.3 - ND ND 3.4 - ND - 4.4 - ND ND 3.5 - ND - 4.5 - ND ND 3.6 + ND + 4.6 - ND ND 3.7 - ND - 4.7 - ND ND 2.1 - ND - 10.1 + + + 1.1 - - - 10.2 + + + 1.2 - - ND 10.3 - - ND 1.3 - - ND 10.4 - - - 1.4 - - ND 10.5 - - - 1.5 - - ND 10.6 - - - 1.6 - - ND 10.7 - - - 1.7 - - ND 10.8 ND + + 1.8 - - ND __________________________________________________________________________ KEY: + = transgenic; - = nontransgenic; ND = not done
______________________________________ 2 × pBII221 prep For transient expression 7 × pHYGI1 prep Potential positive treatment 3 × TE prep Negative control treatment ______________________________________
______________________________________ 9 × pHYGI1/pMS533 Potential positive treatment 2 × TE prep Control treatment ______________________________________
TABLE 2 ______________________________________ Summary of Comparative Example A Round Round Round Recip. Recov. 1 1 2 Round 2 Tissue Plasmids Period Level Period Level Period ______________________________________ Clumps pCHN1-1 13 60 21 60 81 pBII221 Clumps pCHN1-1 14 100 22 -- -- pBII221 Clumps pHYGI1 8 60 19 30 132 pBII221 Clumps pCHN1-1 0 30 22 60 109 pBII221 Clumps pMTXI1 8 3 103 -- -- pBII221 Sieved pCHN1-1 13 -- -- -- -- pBII221 ______________________________________
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US07/974,379 US5538877A (en) | 1990-01-22 | 1992-11-10 | Method for preparing fertile transgenic corn plants |
US08/249,458 US5538880A (en) | 1990-01-22 | 1994-05-26 | Method for preparing fertile transgenic corn plants |
US08/618,749 US5780708A (en) | 1990-01-22 | 1996-03-20 | Fertile transgenic corn plants |
US08/677,695 US6946587B1 (en) | 1990-01-22 | 1996-07-10 | Method for preparing fertile transgenic corn plants |
US08/679,001 USH2074H1 (en) | 1990-01-22 | 1996-07-12 | Fertile transgenic corn plants |
US08/844,555 US6013863A (en) | 1990-01-22 | 1997-04-21 | Fertile transgenic corn plants |
US10/100,215 US20030070189A1 (en) | 1990-01-22 | 2002-03-18 | Fertile transgenic corn plants |
US11/151,700 US8440886B2 (en) | 1990-01-22 | 2005-06-13 | Fertile transgenic corn plants |
US11/555,860 US20070300315A1 (en) | 1990-01-22 | 2006-11-02 | Fertile transgenic corn plants |
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US08/285,488 Continuation-In-Part US5508468A (en) | 1990-01-22 | 1994-08-03 | Fertile transgenic corn plants |
US08/677,695 Division US6946587B1 (en) | 1990-01-22 | 1996-07-10 | Method for preparing fertile transgenic corn plants |
US08/677,695 Continuation US6946587B1 (en) | 1990-01-22 | 1996-07-10 | Method for preparing fertile transgenic corn plants |
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US07/974,379 Expired - Lifetime US5538877A (en) | 1990-01-22 | 1992-11-10 | Method for preparing fertile transgenic corn plants |
US08/249,458 Expired - Lifetime US5538880A (en) | 1990-01-22 | 1994-05-26 | Method for preparing fertile transgenic corn plants |
US08/441,073 Expired - Lifetime US5554798A (en) | 1990-01-22 | 1995-05-15 | Fertile glyphosate-resistant transgenic corn plants |
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US5973227A (en) * | 1998-05-06 | 1999-10-26 | University Of Saskatchewan | Flax transformation |
US5990387A (en) * | 1988-06-10 | 1999-11-23 | Pioneer Hi-Bred International, Inc. | Stable transformation of plant cells |
US6013863A (en) * | 1990-01-22 | 2000-01-11 | Dekalb Genetics Corporation | Fertile transgenic corn plants |
US6025545A (en) * | 1990-01-22 | 2000-02-15 | Dekalb Genetics Corporation | Methods and compositions for the production of stably transformed, fertile monocot plants and cells thereof |
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US5538880A (en) | 1996-07-23 |
US5484956A (en) | 1996-01-16 |
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